During the 54th session of the Global NMR Discussion Meetings held on October 18th, 2022 via Zoom, Prof. Haribabu Arthanari from Harvard Medical School, gave a talk on the topic "Emerging frontiers to address large protein systems by solution NMR". The recording serves as a tutorial.

Speaker's biography:
1994-1996: MSc Chemistry - IIT Madras, India
1996-2003: PhD - Wesleyan University, USA
2003-2010: Research Associate - Harvard Medical School, USA
2010-2016: Lecturer - Harvard Medical School, USA
2016-present: Professor - Harvard Medical School, USA

Follow Prof. Arthanari's work here:
Google scholar: https://scholar.google.com/citations?...
Website: https://artlab.dana-farber.org/

Link: https://youtu.be/Ht3vAyz8L-k

During this session of the Global NMR Discussion Meetings held on October 11th, 2022 via Zoom, Prof. Kurt Wüthrich from ETH gave a talk on the topic "NMR in Structural Biology: History Placed in Perspective". Featured here, is the Q&A that followed his talk.

Prof. Kurt Wüthrich is the 2002 Nobel Laureate in Chemistry for development of nuclear magnetic resonance spectroscopy for determining the three-dimensional structure of biological macromolecules in solution.

Follow Prof. Wüthrich's work here:
Semantic scholar: https://www.semanticscholar.org/autho...
Websites: https://wuthrich-group.ethz.ch/
https://www.scripps.edu/wuthrich/inde...
https://ihuman.shanghaitech.edu.cn/Ku...

Link: https://youtu.be/ANtEsmi6XvM

During the 52nd session of the Global NMR Discussion Meetings held on October 4th, 2022 via Zoom, Dr. Daniel Jardon Alvarez from Weizmann Institute of Science gave a talk on the topic "Paramagnetic effects in NMR: From PRE to metal ions based DNP ". The recording serves as a tutorial.

Abstract:
DNP enhancements are distance independent as long as the nuclear relaxation is governed by paramagnetic relaxation enhancement (PRE) from the polarizing agents. This enables large and homogeneous enhancements in the bulk of inorganic materials upon doping with paramagnetic metal ions. In this talk I will present the basics of PRE and solid effect DNP and, from there, justify the initial statement.

Speaker's biography:
2006-2012: BSc, MSc - Ludwig-Maximilians University, Germany
2012-2016: PhD - University of São Paulo, Brazil
2016-2019: Postdoc - Ohio State University, USA
2019-2021: Postdoc - Weizmann Institute, Israel
2021-present: Senior Intern - Weizmann Institute, Israel

Follow Dr. Jardon Alvarez's work here:
Google scholar: https://scholar.google.com/citations?...
Twitter: @dani_jardon
Review on DNP from metal ion dopants: https://www.sciencedirect.com/science...

Link: https://youtu.be/myn8R_91FHw

The Fall 2022 series of meetings began on September 20th with a talk by Dr. Danila Barskiy on the topic "Parahydrogen-based Exchange Chemistry for Next-Generation Magnetic Resonance". The recording serves as a tutorial.

Abstract:

In my talk, I will present our recent work demonstrating that parahydrogen-based spin chemistry can generate hyperpolarized molecules (urea, alcohols, amino acids, ammonium, glucose, etc.) for benchtop (1 tesla) NMR as well as for zero- to ultralow-field (ZULF) NMR. I will describe the basics of exchange-based hyperpolarization and discuss potential applications for chemical analysis.

Speaker's biography:

Dr. Danila A. Barskiy
PhD - Novosibirsk University, 2012 - 2015
Postdoc - Vanderbilt University, 2015 - 2017
Postdoc - University of California Berkeley, 2017 - 2020
Presently, he is a research Group Leader at the Helmholtz Institute, Johannes Gutenberg University Mainz. His group works on chemistry-oriented hyperpolarization technologies for affordable nuclear magnetic resonance (NMR) spectroscopy and imaging (MRI).

Follow Dr. Barskiy's work here:

Google scholar: https://scholar.google.com/citations?...
Website: https://budker.uni-mainz.de/?page_id=70
Twitter: https://twitter.com/tovarishbarskiy

Link: https://youtu.be/ED5owawMGsI

During the 49th session of the Global NMR Discussion Meetings held on June 14, 2022 via Zoom, Dr. Loren Andreas from Max Planck Institute for Multidisciplinary Sciences gave a talk on the topic "Proton Detection, Magic-Angle Spinning and High Magnetic Fields for Membrane Protein Structural ". The recording serves as a tutorial.

Abstract:

I will present several topics, starting with the practical aspects of setting up proton-detection measurements with 1.3 mm and 0.7 mm rotors capable of 60 and greater than 100 kHz spinning. From there, I will highlight some of our recent results including detection of bound water, hydrogen bonding interaction, as well as new developments in pulse sequences aimed at global structure determination. I may also briefly mention some DNP results.

Speaker's Biography:
2016-Present: Professor, Group Leader, MPI Göttingen, Germany
2014-2016: Postdoc ENS, Lyon, France
2014: Ph.D. MIT, Boston, USA

Website: https://www.mpinat.mpg.de/andreas

Google scholar: https://scholar.google.com/citations?...

Link: https://youtu.be/9LeBssn2Zpo

During the 48th session of the Global NMR Discussion Meetings held on May 17, 2022 via Zoom, Gal Porat-Dahlerbruch from the University of Delaware gave a talk on the topic "Structure and Dynamics of Viruses by MAS NMR". The recording serves as a tutorial.

Abstract:

Magic angle spinning (MAS) NMR has been widely used to characterize the structure and dynamics of viruses at all levels of organization. In this talk, I will cover the basics of MAS NMR spectroscopy with specific emphasis on experiments designed to study viruses, discuss the advantages and complementarity of MAS NMR with respect to other structural biology techniques, and present examples of unique insights gained into HIV-1, Influenza A, Hepatitis B, and other viruses.

Read their recent review here:

Gal Porat-Dahlerbruch, Amir Goldbourt, Tatyana Polenova (2021) Virus Structures and Dynamics by Magic-Angle-Spinning NMR. Annual Review in Virology. 8(1):219-237. DOI: 10.1146/annurev-virology-011921-064653.

Speaker's biography:

2015-2018: BS Chemistry, Tel Aviv University, Israel
2018-2019: Graduate Research Assistant, Tel Aviv University, Israel (Prof. Amir Goldbourt)
2019-Present: Ph.D. Candidate, University of Delaware, USA (Prof. Tatyana Polenova)

Twitter: @MagicAngleGal

Polenova laboratory website: https://sites.udel.edu/polenova-group/

Link: https://youtu.be/mqkTuUk8gcM

During the 47th session of the Global NMR Discussion Meetings held on April 19, 2022 via Zoom, Dr. David Halat from UC Berkeley gave a talk on the topic "Electrophoretic NMR: an ion speedometer for concentrated electrolytes". The recording serves as a tutorial.

Abstract: Pulsed field gradient (PFG) NMR techniques are powerful probes of self-diffusion but remain insensitive to the charged nature of the mobile species. For example, Li-ion battery electrolyte performance is strongly affected by the drift velocity of the working (Li+) cation under an applied potential, and not necessarily to its diffusivity. By synchronizing PFG pulse programs with a simultaneous electric field, electrophoretic NMR (eNMR) can selectively measure cation, anion, and solvent motion and provide a full accounting of ion transport in concentrated electrolytes. I will discuss the experimental and practical underpinnings of eNMR, as well as its complementarity to MD simulations to reveal the migration of specific solvation structures.

Speaker's biography:

2009 — 2013: B.S. Mathematics and Chemistry, Montana State University, USA.

2013 — 2018: Ph.D., University of Cambridge, UK, (with Clare P. Grey)

2018 : Postdoc and FRS Research Associate, University of Cambridge, UK (with Clare P. Grey)

2018 — present: Postdoc, University of California Berkeley, USA (with Jeffrey A. Reimer and Nitash P. Balsara)

Google Scholar: https://scholar.google.com/citations?...

Twitter: @davidhalat

During the 46th session of the Global NMR Discussion Meetings held on April 5, 2022 via Zoom, Prof. Vincenzo Venditti from Iowa State University gave a talk on the topic "Solution NMR methods for structural and thermodynamic investigation of sorption equilibria". The recording serves as a tutorial.

Abstract:

Nanoparticles are highly tunable materials that owe some of their unique properties to the ability to efficiently and selectively adsorb their target ligands. In this tutorial we will discuss the use of DEST, relaxation dispersion, and R1 experiments for investigating structure, kinetics, and thermodynamics of sorption with atomic resolution.

Review Article

Venditti group website: https://group.chem.iastate.edu/Venditti/

Google Scholar: https://scholar.google.com/citations?...

Speaker's biography: Vincenzo Venditti received a Ph.D. from the University of Siena in 2009 for his work with Neri Niccolai and Sam Butcher on the surface accessibility of biopolymers. From 2009 to 2014 he was a Postdoctoral Fellow at the National Institutes of Health in the group of Marius Clore where he specialized in biomolecular NMR techniques for the investigation of protein structure, dynamics and interactions. Vincenzo joined the Department of Chemistry at ISU in January 2015.

Link: https://youtu.be/EupzO6oj9J8

During the 45th session of the Global NMR Discussion Meetings held on March 22nd, 2022 via Zoom, Prof. Matthias Ernst from ETH Zürich gave a talk on the topic "Heteronuclear Spin Decoupling in Static and Rotating Samples". The recording serves as a tutorial.

Abstract: I will discuss the fundamentals of heteronuclear decoupling with an emphasis on the differences between static and rotating samples. The talk will highlight the importance of the interaction-frame transformation in both cases and the new aspects that come up in rotating solids. In the end, I will give qualitative recommendations which sequences to use.

Speaker's biography:

1993: Ph.D, ETH Zürich (with Richard Ernst)

1994-1996: Postdoc, UC Berkeley (with Alex Pines)

1996-1998: Scientist, University of Nijmegen

1998-2011: Senior Scientist and Professor, ETH Zürich

Social Media:

Twitter: @maer

Website: https://www.nmr.ethz.ch/~maer/

Google Scholar: https://scholar.google.com/citations?...

Link: https://youtu.be/-uh2Zfl6N30

During the 44th session of the Global NMR Discussion Meetings held on March 8th, 2022 via Zoom, Euan Bassey from Prof. Clare Grey's research group at the University of Cambridge gave a talk on the topic below. The recording serves as a tutorial.

Topic: Motion, Migration and Charge Compensation in a Na+ Ion Battery Cathode: Tales from the Paramagnetic NMR Storybook

Abstract: Sodium-ion batteries (NIBs) are a more sustainable and significantly cheaper energy storage alternative to lithium-ion batteries (LIBs) and as such are poised to play a vital role in future grid-based energy storage. To date, the capacities and rate capabilities of NIBs—limited by the cathode—are too low for many real-world applications, and the sources of NIB degradation during charge and discharge have not received the attention that LIBs have. If we are to address the energy storage problem and improve the electrochemical performance of NIB cathodes, we must understand the sources of energy losses of this poor rate behaviour in terms of the changes to the chemical structure of the cathode during charge and discharge.

Solid-state NMR (ss-NMR) is ideally suited to studying such structural changes; variable-temperature 23Na ss-NMR is invaluable in assessing the extent of Na+ ion mobility (and hence the charge-discharge rates possible in NIB cathodes), whilst 17O NMR provides a local handle on the charge compensation scheme. Amongst the families of NIB cathode materials, layered NIB cathodes are particularly attractive, owing to their high Na+ mobility and good gravimetric capacities.

In this presentation, we provide an overview of paramagnetic NMR, the effect of motion on NMR spectra and the assignment of highly paramagnetic NMR spectra. We introduce Na0.67[Mg0.28Mn0.72]O2, a high-capacity, high-rate Na+-ion cathode and go on to report the changes in Na+ ion dynamics during its first charge-discharge cycle. Using a combination of variable temperature 23Na NMR and ab initio calculations of the NMR shifts and energy barriers, we assess the mobility of Na+ ions in the structure and hopping routes of these ions. For the first time, we elucidate the superstructure of P2-Na0.67[Mg0.28Mn0.72]O2 through powder synchrotron X-ray diffraction, powder neutron diffraction and pair distribution function analysis. We examine the structural changes in this material using 25Mg and 17O NMR and use these to develop a mechanism for charge compensation.

Speaker's biography: Euan completed his BA(Cantab) and MSci in Natural Sciences at the University of Cambridge. Having fallen in love with magnetic resonance techniques and solid-state chemistry, he is currently pursuing a PhD in Chemistry, supervised by Prof. Clare Grey. Now in his fourth year, he wishes to enthuse and inspire others to use magnetic resonance techniques to understand novel systems.

Twitter: @EuanBassey

Website: https://www.ch.cam.ac.uk/person/eb599

Link: https://youtu.be/H4WMdrwhLS0

During the 43rd session of the Global NMR Discussion Meetings held on February 22nd, 2022 via Zoom, Prof. Tuo Wang gave a talk on the topic "Cellular Carbohydrates: Limitations and Opportunities from Solid-State Nuclear Magnetic Resonance (NMR) and Dynamic Nuclear Polarization (DNP)". The recording serves as a tutorial.

Abstract: Solid-State NMR has demonstrated its unique capability of characterizing the highly polymorphic structure of carbohydrate polymers in living cells or intact tissues. Here we will present the recent applications to plant, fungi, and microalgal systems and discuss the new opportunities enabled by ultrahigh-field magnets and DNP.

Website: https://www.chemistry.msu.edu/faculty-research/faculty-members/wang-tuo.aspx

Google Scholar: https://scholar.google.com/citations?...

Link: https://youtu.be/oOPQYrWFFn0

During the 42nd session of the Global NMR Discussion Meetings held on February 8th, 2022 via Zoom, Prof. Geoffrey Bodenhausen gave a talk on the topic "Long-lived states: some unexpected applications". The recording serves as a tutorial.

Abstract: The invention of singlet states, also known as long-lived states (LLS), by Malcolm Levitt was to be followed by many further inventions by scores of creative co-workers in Southampton and Novosibirsk: the quest for molecules immersed in environments capable of supporting singlet states with very long lifetimes, magnetization-to-singlet conversion (M2S), extremely low frequency (ELF) excitation, classification of decay rates according to the eigenvalues of the Liouvillian, effects of exchange on the lifetimes of LLS, etc. Our laboratories at EPFL and ENS have focused on a few applications of long-lived states, such as the study of slow diffusion of macromolecules, long-lived states in substrates of enzymatic reactions, long-lived states in systems with many spins, long-lived population imbalances in systems containing quadrupolar nuclei, elusive long-lived states in water (“para-water”), and long-lived states in drug molecules binding to macromolecular targets.

Speaker's biography:

1996-present: Professor, Department of Chemistry, Ecole Normale Supérieure, Paris

2001-2016: Professor, Ecole Polytechnique Fédérale de Lausanne

1985-2001: Université de Lausanne

1994-1996: National High Magnetic Field Laboratory and Florida State University, Tallahassee

1980-1985: Post-doc at ETH with Richard Ernst

1977 :D. Phil. Oxford with Ray Freeman Corresponding member of the Netherlands Academy of Sciences (KNAW), Fellow of the American Physical Society, Latsis Prize of the Swiss National Science Foundation

Follow Prof. Bodenhausen's work here:

Google scholar: https://scholar.google.fr/citations?u...

Website: http://www.paris-en-resonance.fr/CvHt...

Link: https://youtu.be/K9m2_cY5-r8

During the 41st session of the Global NMR Discussion Meetings on Zoom held on 25th January 2022, Prof. Rachel W. Martin, University of California, Irvine, USA, gave a talk on the topic "From genome to NMR spectrum".

The slides in the talk can be downloaded here: https://drive.google.com/file/d/1OPde...

Abstract: As structural biologists, we spend much of our time preparing samples for biomolecular NMR and collecting and analyzing the data. These experimental efforts are very time- and resource-intensive, suggesting that we should pay closer attention to systematically choosing targets for investigation. The advent of inexpensive nucleic acid sequencing technology has led to the rapid proliferation of genome and transcriptome data. Thus, tens of thousands of unique and potentially valuable enzymes have been “discovered” in principle, but in reality are languishing uncharacterized in databases. Furthermore, in many enzyme discovery studies, researchers choose proteins for investigation based on factors such as expression level in the host organism, which may not reflect suitability for the desired chemical application. In this talk, I will discuss our recent efforts toward developing a workflow for efficient target selection using bioinformatics and in silico methodology. Finally, I will present molecular modeling and experimental results, including NMR spectra, for Droserasin 1, a novel antimicrobial peptide we discovered from the genome of the carnivorous plant Drosera capensis.

Prof. Martin's Biography:

2002: PhD, Yale University, USA (with Prof. Kurt W. Zilm)

2002-2005: Postdoc, University of California, Berkeley (with Prof. Alex Pines)

2005-present: Professor, Department of Chemistry and Biochemistry, University of California, Irvine

Follow Prof. Rachel W. Martin and her work on social media:

Twitter: @rachelwmartin

Website: https://probemonkey.com/

Free online resources (sequence level):

• GenBank (repository of annotated DNA sequences): https://www.ncbi.nlm.nih.gov/genbank/

• BLAST (find similar nucleic acid/protein sequences to a given sequence): https://blast.ncbi.nlm.nih.gov/Blast.cgi

• Expasy translate tool (translate nucleic acid to protein): https://web.expasy.org/translate/

• Clustal Omega (align multiple sequences, can use nucleic acid or protein): https://www.ebi.ac.uk/Tools/msa/clust...

• UniProt (find what has been published for your protein): https://www.uniprot.org/

• SignalP (predict signal sequences / targeting sequences) https://services.healthtech.dtu.dk/se...

• Scampi (predict whether your protein is a membrane protein, if yes, predict topology): https://scampi.cbr.su.se/pred/help/ Free online resources (structure level):

• Rosetta, iTasser, AlphaFold (predict protein structures from amino acid sequence) https://www.rosettacommons.org/software https://zhanggroup.org/I-TASSER/ https://alphafold.ebi.ac.uk/ https://colab.research.google.com/git...

• Modeller (Make homology models if you have the structure of a similar protein) https://salilab.org/modeller/

• Protein Data Bank (find solved structures of biological macromolecules) https://www.rcsb.org/ (North America) https://www.ebi.ac.uk/pdbe/node/1 (Europe)

Link: https://youtu.be/x_zgtuKF_-c

During the 40th session of the Global NMR Discussion Meetings held on December 7th, 2021 via Zoom, Marcel Levien, Ph.D. student in Prof. Marina Bennati's laboratory at Max Planck, Göttingen, Germany, gave a talk on "Overhauser Dynamic Nuclear Polarization in the liquid state at room temperature at low and high magnetic fields". The recording serves as a tutorial.

Abstract: Dynamic Nuclear Polarization (DNP) is a tool that promises to overcome the long-standing sensitivity issues in modern Nuclear Magnetic Resonance (NMR). While it is already commercially available in the solid-state, in the liquid state at room temperature the development at high magnetic field is still in its infancy. However, recent advances in the understanding of the polarization transfer mechanisms and in the hardware technology demonstrate the viability of DNP in liquids at high magnetic fields. During this talk, the general Overhauser mechanism for the liquid state will be discussed. Particularly, the polarization transfer via scalar interaction, its frequency dependence as well as the role of the polarizing agent will be explained. Finally, an overview about recent applications at low field as well as developments at high magnetic field will be given.

Speaker's biography:

2012 – 2015: BSc. Chemistry, University of Göttingen, Germany

2015 – 2017: MSc. Chemistry, University of Göttingen, Germany

2018 – present: PhD student, Max Planck Institute for Biophysical Chemistry, Göttingen, Germany

Link: https://youtu.be/gOjkSTBiITs

During the 39th session of the Global NMR Discussion Meetings held on November 23rd, 2021 via Zoom, Prof. Ilya Kuprov gave a talk on "What goes on inside the nucleus: origins of nuclear magnetogyric ratio and quadrupole moment". The recording serves as a tutorial.

Prof. Kuprov is a world renowned magnetic resonance spectroscopy and imaging specialist with a particular focus on large-scale computer simulation of magnetic processes in chemical and biological systems; this includes quantum optimal control and machine learning methods.

2005: DPhil, Chemistry, University of Oxford (with Prof. Peter Hore)

2005-2010: Fellow by Examination, Magdalen College, Oxford

2007-2009: Lecturer in Chemistry, University of Durham

2009-2011: EPSRC Early Career Fellow, University of Oxford

2011-present: Associate Professor of Chemical Physics at the University of Southampton

2018-present: Associate Editor, Science Advances.

Website: https://spindynamics.org

Google Scholar: https://scholar.google.com/citations?...

Link: https://youtu.be/lPc1jxo8-Uw

During the 38th session of the Global NMR Discussion Meetings on Zoom, Dr. Blake Wilson, National Institute of Health (NIH) Bethesda, gave a tutorial on "Time-resolved solid-state nuclear magnetic resonance (NMR) spectroscopy: an overview, with applications to biophysical systems".

Bio of Dr. Blake Wilson:

2013: B.S. Physics, Massachusetts Institute of Technology (Prob. Bob Griffin)

2013 - 2019: PhD, University of California, Santa Barbara (Prof. Mark Sherwin and Prof. Songi Han)

2019 - Present: Postdoctoral fellow, NIH Bethesda (Dr. Rob Tycko)

Follow Dr. Wilson and his work:

Twitter: https://twitter.com/blkwiln

Google scholar: https://scholar.google.com/citations?...

Abstract: I will give an overview of time-resolved solid-state NMR techniques, and how they can be used to study structural conversion processes in biophysical systems. A variety of methods, including rapid pH jumps, rapid temperature jumps, and rapid mixing of different species, can be used to initiate biophysical processes, which can subsequently be probed with millisecond time resolution by sudden freezing followed by interrogation with solid-state NMR. I will discuss how dynamic nuclear polarization (DNP) has been shown to dramatically improve the sensitivity of time-resolved NMR techniques, with the aim of capturing structural information from sparsely populated intermediate states.

Link: https://youtu.be/-bYuwfvY6fw

During the 37th session of the Global NMR Discussion Meetings on Zoom, Kan Tagami, University of California, Santa Barbara (UCSB), gave a talk on the instrumentation aspects of a dynamic nuclear polarization spectrometer with dual nuclear magnetic resonance (NMR) and electron paramagnetic resonance (EPR) detection at ultra-low temperatures.

Speaker's biography:

2012 - 2016: B.S., Chemistry, College of William and Mary, USA.

2016 - present: Graduate Student Researcher, Chemistry, University of California - Santa Barbara, USA (Advisor: Prof. Songi Han)

Kan's research interest is in the spin physics and instrumentation of dynamic nuclear polarization (DNP) in solid state NMR. His goal is to improve the efficiency of solid state DNP under MAS through development of both EPR and NMR instruments, as well as use a wide variety of existing magnetic resonance techniques to characterize and exploit the underlying mechanisms of DNP. Currently, his focus is on development of a low temperature (30K), high field (7T) pulsed EPR/DNP spectrometer with magic angle spinning capabilities.

For more information, see the Han Lab website: https://han.chem.ucsb.edu

Link: https://youtu.be/eSiAC0NeXzE

During the 36th session of the Global NMR Discussion Meetings on Zoom, Dr. Dominik Kubicki, University of Warwick, gave a talk on the characterization of metal halide perovskites using solid-state nuclear magnetic resonance (NMR).

Abstract: Determining the structure-property relationships at multiple length scales is one of the key tenets of rational design of new materials. I will use the example of metal halide perovskites to discuss how we can determine the atomic-level structure of solids in an element-specific manner using solid-state NMR. The range of problems includes quantifying dopant incorporation, phase segregation, halide mixing, decomposition pathways, passivation mechanisms, short-range and long-range dynamics. I will focus on the experimental challenges and discuss practical aspects of recording solid-state NMR data on this class of materials.

Bio: Dominik J. Kubicki is an assistant professor in the Department of Physics at the University of Warwick. He graduated from the Warsaw University of Technology and completed his PhD in solid-state NMR with Lyndon Emsley at EPFL (Switzerland) in 2018. He then worked in the group of Michael Grätzel and subsequently held a Marie Curie-Skłodowska Fellowship at the University of Cambridge working with Sam Stranks and Clare Grey. His research focuses on new materials for sustainable optoelectronic technologies.

Website: https://kubickilab.wordpress.com/

Google scholar: https://scholar.google.ch/citations?u...

Twitter: @DominikJKubicki

Link: https://youtu.be/RkN77Y2EeQk

During the 35th session of the Global NMR Discussion Meetings on Zoom, Dr. Bharathwaj Sathyamoorthy, IISER Bhopal, India, gave a talk on the Nuclear Magnetic Resonance (NMR) studies of DNA structure and dynamics.

Abstract: Characterizing conformational preferences of biomolecules is essential to understand their function. NMR spectroscopy has been instrumental in unravelling the conformational polymorphism of DNA and sequence-specific signatures, both of which are critical for their function. This talk shall describe the journey over the past five decades towards our current understanding of DNA structure and dynamics obtained from solution-state NMR spectroscopy.

Dr. Sathyamoorthy's Biography:

2005: B.Sc. (Chemistry), University of Madras, India

2007: M.Sc. (Chemistry), Indian Institute of Technology Madras, India

2013: Ph.D. (Chemistry), State University of New York at Buffalo, USA (Prof. Thomas Szyperski)

2013-2015: Postdoctoral Research Fellow, University of Michigan/Duke University, USA (Prof. Hashim M. Al-Hashimi)

2016 – present: Assistant Professor, IISER Bhopal, India

Follow Dr. Sathyamoorthy and his work on social media:

Twitter: @bwajtweeting

Website: https://bionmr.wordpress.com

Google Scholar: https://scholar.google.com/citations?...

Link: https://youtu.be/XvcLsYMigmQ